Your search keyword '"Zeni, Valeria"' showing total 2 results

1. Developing a Highly Stable Carlina acaulis Essential Oil Nanoemulsion for Managing Lobesia botrana.

Author

Benelli, Giovanni, Pavoni, Lucia, Zeni, Valeria, Ricciardi, Renato, Cosci, Francesca, Cacopardo, Gloria, Gendusa, Saverio, Spinozzi, Eleonora, Petrelli, Riccardo, Cappellacci, Loredana, Maggi, Filippo, Pavela, Roman, Bonacucina, Giulia, and Lucchi, Andrea

Subjects

BOTANICAL insecticides, PEST control, INSECT pests, BIOLOGICAL insecticides, SUSTAINABLE development, PESTICIDES, ESSENTIAL oils

Abstract

The growing interest in the development of green pest management strategies is leading to the exploitation of essential oils (EOs) as promising botanical pesticides. In this respect, nanotechnology could efficiently support the use of EOs through their encapsulation into stable nanoformulations, such as nanoemulsions (NEs), to improve their stability and efficacy. This technology assures the improvement of the chemical stability, hydrophilicity, and environmental persistence of EOs, giving an added value for the fabrication of natural insecticides effective against a wide spectrum of insect vectors and pests of public and agronomical importance. Carlina acaulis (Asteraceae) root EO has been recently proposed as a promising ingredient of a new generation of botanical insecticides. In the present study, a highly stable C. acaulis-based NE was developed. Interestingly, such a nanosystem was able to encapsulate 6% (w/w) of C. acaulis EO, showing a mean diameter of around 140 nm and a SOR (surfactant-to-oil ratio) of 0.6. Its stability was evaluated in a storage period of six months and corroborated by an accelerated stability study. Therefore, the C. acaulis EO and C. acaulis-based NE were evaluated for their toxicity against 1st instar larvae of the European grapevine moth (EGVM), Lobesia botrana (Denis & Schiffermüller, 1775) (Lepidoptera: Tortricidae), a major vineyard pest. The chemical composition of C. acaulis EO was investigated by gas chromatography–mass spectrometry (GC–MS) revealing carlina oxide, a polyacetylene, as the main constituent. In toxicity assays, both the C. acaulis EO and the C. acaulis-based NE were highly toxic to L. botrana larvae, with LC50 values of 7.299 and 9.044 µL/mL for C. acaulis EO and NE, respectively. The C. acaulis-based NE represents a promising option to develop highly stable botanical insecticides for pest management. To date, this study represents the first evidence about the insecticidal toxicity of EOs and EO-based NEs against this major grapevine pest. [ABSTRACT FROM AUTHOR]

Published

2020

2. Green Micro- and Nanoemulsions for Managing Parasites, Vectors and Pests.

Author

Pavoni, Lucia, Pavela, Roman, Cespi, Marco, Bonacucina, Giulia, Maggi, Filippo, Zeni, Valeria, Canale, Angelo, Lucchi, Andrea, Bruschi, Fabrizio, and Benelli, Giovanni

Subjects

INSECT pests, PESTS, FARM produce, PEST control, MOSQUITO vectors, PARASITES, PLASMODIUM, LEISHMANIA

Abstract

The management of parasites, insect pests and vectors requests development of novel, effective and eco-friendly tools. The development of resistance towards many drugs and pesticides pushed scientists to look for novel bioactive compounds endowed with multiple modes of action, and with no risk to human health and environment. Several natural products are used as alternative/complementary approaches to manage parasites, insect pests and vectors due to their high efficacy and often limited non-target toxicity. Their encapsulation into nanosystems helps overcome some hurdles related to their physicochemical properties, for instance limited stability and handling, enhancing the overall efficacy. Among different nanosystems, micro- and nanoemulsions are easy-to-use systems in terms of preparation and industrial scale-up. Different reports support their efficacy against parasites of medical importance, including Leishmania, Plasmodium and Trypanosoma as well as agricultural and stored product insect pests and vectors of human diseases, such as Aedes and Culex mosquitoes. Overall, micro- and nanoemulsions are valid options for developing promising eco-friendly tools in pest and vector management, pending proper field validation. Future research on the improvement of technical aspects as well as chronic toxicity experiments on non-target species is needed. [ABSTRACT FROM AUTHOR]

Published

2019